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Generate randomized mock data from io.ts type codecs.

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mock-data-gen

Generate random mock data from io-ts types for property based testing using fast-check and for traditional unit testing.

Intro

This library will take an io-ts specification as an input and create random values satisfying the specification for you.

These values, you can get as an Arbitrary instance for property based testing using fast-check, or as simple values, for traditional unit testing.

By default, the output is deterministic, but you are able to supply a random seed of your own (eg. Date.now()) to get non-deterministic output.

Examples

Generate a single value eg., for unit testing:

const TPerson = t.type({
  firstName: t.string,
  lastName: t.string,
  gender: t.union([t.string, t.undefined])
});

const p = genOne(TPerson);
console.log(p); // { firstName: 'HCBcoFhlne', lastName: 'iFHbcmrFRa', gender: undefined }
expect(TPerson.is(p)).to.be.true;

Generate many values by using a generator:

const generator = gen(TPerson);
let n=0;
while (n < 10) {
  const p = generator.next().value;
  console.log(p);
  // { firstName: 'HCBcoFhlne', lastName: 'iFHbcmrFRa', gender: undefined }
  // { firstName: 'rLnOganLCJ', lastName: 'MODLInnhQj', gender: 'aitptOOKHm' }
  // ...
  expect(TPerson.is(p)).to.be.true;
  ++n;
}

Property based testing using fast-check

Lets assume we have a function that persists users to a DB. It does not handle the case when a user already exists in the DB gracefully:

const persist = (users: DBUser[]) => {
  const db: string[] = [];
  for (const user of users) {
    if (db.includes(user.id)) {
      throw new Error(`user with login '${user.id}' already exists`);
    }
    db.push(user.id);
  }
};

We can find this bug easily by generating an *arbitrary array of DBUsers (arb(t.array(TDBUser))). Using that, we can simply try to persist that arbitrary array:

import * as fc from 'fast-check';

fc.assert(fc.property(arb(t.array(TUser)), persist));

We almost immediately find the problem, fast-check throws the error:

Property failed after 32 tests
{ seed: 0, path: "31:1:1:6:6:13:13:13", endOnFailure: true }
Counterexample: [[{"id":"ffffffff-ffff-4fff-ffff-ffffff4c88ce","name":"","birthdate":new Date("1970-01-01T00:00:00.000Z")},{"id":"ffffffff-ffff-4fff-ffff-ffffff4c88ce","name":"","birthdate":new Date("1970-01-01T00:00:00.000Z")}]]
Shrunk 7 time(s)
Got error: Error: user with login 'ffffffff-ffff-4fff-ffff-ffffff4c88ce' already exists

The counterexample is a small input that exhibits the bug, and in this case, is a pretty good indication of what the underlying problem was in the code while omitting unnecessary details.

Limitations

Not every single definition in io-ts can be supported out of the box. Branded types and intersection types need special treatment.

Branded Types

Branded types in io-ts are types that refine an existing io-ts by a predicate that dynamically govern whether a value is included in the type.

If we create a branded type that contains all numbers from 7 to 10 (inclusive), it'll look like that in io-ts:

interface ISevenToTen {
  readonly sevenToTen: unique symbol
}

const TSevenToTen = t.brand(t.number,
  (n: number): n is t.Branded<number, ISevenToTen> => n >= 7 && n <= 10,
  'sevenToTen');

Of course, mock-data-gen is unable to efficiently generate examples satisfying this specification out of the box. A generic algorithm would generate using t.number until one number accidentally satisfies the predicate. This is, of course, not even guaranteed to ever succeed.

Intersection Types

Like branded types, we can't efficiently generically produce examples for intersection types.

Consider the type TSevenToTenInt:

const TSevenToTenInt = t.intersection([t.Int, TSevenToTen]);

If you squint a little, this is a bit like a Branded type using t.Int as a base type and TSevenToTen.is as a predicate.

Producing Values anyways

What you can do, is to specify how to generate values for such problematic types manually.

namedTypeGens/namedArbs

By including an algorithm to produce values in the configuration via the namedTypeGens property, you can circumvent the problem:

const sevenToTenG = gen(TSevenToTen, {
  namedTypeGens: {
    'sevenToTen': (r) => 7+r.random()*3.0
  }
});
for (let i=0; i<100; ++i) {
  const value = sevenToTenG.next().value;
  expect(TSevenToTen.is(value), `generated value must match type\nvalue:\t${value}\ntype:\t${TSevenToTen.name}\n`).to.be.true;
}

Same for TSevenToTen:

const sevenToTenIntG = gen(TSevenToTenInt, {
  namedTypeGens: {
    '(sevenToTen & Int)': r => r.intBetween(7, 10)
  }
});
for (let i=0; i<10000; ++i) {
  const value = sevenToTenIntG.next().value;
  expect(TSevenToTenInt.is(value), `${value} should be ${TSevenToTenInt.name}`).to.be.true;
}

As an alternative, you may use the withGenerator function that attaches a generator function to the type object itself via reflect-metadata. The following example would derive a type from t.string that produces only valid email addresses:

const TMail = withGenerator(
  t.string,
  (r) => `user-${r.intBetween(0, 10000)}@company.com`
);

Confirmation using a unit test:

const email = genOne(TMail);
expect(email.endsWith('@company.com')).to.be.true;

Confirmation using property based testing:

fc.assert(fc.property(arb(TMail), (mail) => mail.endsWith('@company.com')));

How to Contribute

Ideally, create an issue explaining the problem context that you're trying to fix. In your commit message, please reference that issue.

Thank you for contributing :)

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